folks, I've implemented the code for counting the total number of Nodes in a binary tree and the method looks like the following:
public int countNodes(Node root){
int count = 0;
if(root == null){
System.out.println("The tree is empty!");
return -1;
}
else{
count = 1;
Node current = root;
if(current.leftChild != null){
count += countNodes(current.leftChild);
}
else if(current.rightChild != null){
count += countNodes(current.rightChild);
}
}
System.out.print("The total number of nodes in the tree is ");
return count;
}
The parameter of the method contains Node root but my question is when I try to run the method from the main class then what should I pass as a parameter??
what should I add inside the parameters here?:
int countNodes = tree1.countNodes("?????????????");
package BST;
public class Node {
int data;
Node leftChild;
Node rightChild;
public void displayNode(){
System.out.println("The data is " + this.data);
}
}
class Tree{
private Node root;
public Tree(){
this.root = null;
}
public Node find(int key){
Node current = root;
while(current.data != key){
if(key < current.data){
current = root.leftChild;
}
else{
current = root.rightChild;
}
if(current == null){
System.out.println("The Node contatining the key " + key + " does not exist!");
return null;
}
}
return current;
}
public void insert(int key){
Node newNode = new Node();
if(root == null){
root = newNode;
}
else{
Node current = root;
Node parent;
while(true){
parent = current;
if(current.data > key){
current = current.leftChild;
if(current == null){
parent.leftChild = newNode;
return;
}
}
else{
current = current.rightChild;
if(current == null){
parent.rightChild = newNode;
return;
}
}
}
}
}
public Node findMin(){
if(root == null){
System.out.println("The tree is empty!");
return null;
}
else{
Node current = root.leftChild;
Node last = root;
while(current != null){
last = current;
current = current.leftChild;
}
return last;
}
}
public Node findMax(){
if(root == null){
System.out.println("The tree is empty!");
return null;
}
else{
Node current = root.rightChild;
Node last = root;
while(current != null){
last = current;
current = current.rightChild;
}
return last;
}
}
public int countNodes(Node root){
int count = 0;
if(root == null){
System.out.println("The tree is empty!");
return -1;
}
else{
count = 1;
Node current = root;
if(current.leftChild != null){
count += countNodes(current.leftChild);
}
else if(current.rightChild != null){
count += countNodes(current.rightChild);
}
}
System.out.print("The total number of nodes in the tree is ");
return count;
}
Class MainTester
class MainTester{
public static void main(String[] args){
Tree tree1 = new Tree();
tree1.insert(1);
tree1.insert(2);
tree1.insert(3);
tree1.insert(4);
tree1.insert(5);
tree1.insert(6);
tree1.insert(7);
tree1.insert(8);
tree1.insert(9);
tree1.insert(10);
int countNodes = tree1.countNodes("?????????????");
}
}
You can use the root node of the tree. Basing from your example, you can get it from the method find()
int countNodes = tree1.countNodes(tree1.find(1));
You can also use other nodes like
int countNodes = tree1.countNodes(tree1.find(5));
Related
I'm having trouble implementing an AVL tree in java and would appreciate your help,
preferably by explaining what's wrong with my code (I've seen different implementations and would like to figure out what's wrong with mine).
public class AVLTree<T> {
public AVLNode<T> root;
int size;
//constructor
public AVLTree() {
root = null;
size = 0;
}
public void add(T obj) {
//initialize the new node
AVLNode<T> node = new AVLNode<T>(obj);
//if the tree is empty than our new node will serve as a root
if(root == null)
{
root = node;
size++;
return;
}
add(root, node);
}
private void checkViolations(AVLNode<T> node) {
int dif = Math.abs(height(node.left) - height(node.right)) ;
//there's a violation at our level
if(dif > 1)
{
rebalance(node);
}
//if we're at the root, tree is balances(AVL)
if(node.parent == null) return;
//we're not at the top, check parent
checkViolations(node.parent);
}
private void rebalance(AVLNode<T> node) {
//right subtree is bigger than left subtree
if(height(node.right) - height(node.left) > 1)
{
//problem is right-right
if(height(node.right.right) > height(node.right.left))
node = leftRotation(node);
//problem is right-left
else
node = rightLeftRotation(node);
}
//left subtree is bigger than right subtree
else
{
//problem is left-left
if (height(node.left.left) > height(node.left.right))
node = rightRotation(node);
//problem is left-right
else
node = leftRightRotation(node);
}
if (node.parent == null)
root = node;
}
private AVLNode<T> rightLeftRotation(AVLNode<T> node) {
node.right = rightRotation(node.right);
return leftRotation(node);
}
private AVLNode<T> leftRightRotation(AVLNode<T> node){
node.left = leftRotation(node.left);
return rightRotation(node);
}
private AVLNode<T> rightRotation(AVLNode<T> node) {
AVLNode<T> temp = node.left;
node.left = temp.right;
temp.parent = node.parent;
temp.right = node;
node.parent = temp;
return temp;
}
private AVLNode<T> leftRotation(AVLNode<T> node) {
AVLNode<T> temp = node.right;
node.right = temp.left;
temp.parent = node.parent;
temp.left = node;
node.parent = temp;
return temp;
}
private int height(AVLNode<T> node) {
//base case
if(node == null) return 0;
return 1 + (Math.max(height(node.left), height(node.right)));
}
private void add(AVLNode<T> parent, AVLNode<T> newNode) {
if(((Comparable<T>)newNode.data).compareTo(parent.data) > 0)
{
if(parent.right == null)
{
parent.right = newNode;
newNode.parent = parent;
size++;
}
else add(parent.right, newNode);
}
else
{
if(parent.left == null)
{
parent.left = newNode;
newNode.parent = parent;
size++;
}
else add(parent.left, newNode);
}
checkViolations(newNode);
}
}
I'm trying to add the next numbers in this order (left to right): 1,2,3,4,5
up until 4, everything seems to go great.
Thank you
I have written a Code for AVL Tree Insertion but when I try to print the value of Root Node it always returns Null. I am unable to understand the reason.Anyone who can solve this problem? I have tried many times but I could not resolve the problem. I am confused. I hope that someone from here will help in the case of resolving the problem I have as I am sure there are high level of experts here.
public class AVLTreeMethods {
public Node root = null;
public int height(Node node){
if (node == null)
return 0;
return node.height;
}
public int max(Node node1, Node node2){
if (node1.height > node2.height)
return node1.height;
return node2.height;
}
public Node rotateRight(Node node){
Node newNode = node.left;
node.left = newNode.right;
newNode.right = node;
node.height = max(node.left,node.right) + 1;
newNode.height = max(newNode.left, newNode.right) + 1;
return newNode;
}
public Node rotateleft(Node node){
Node newNode = node.right;
node.right = newNode.left;
newNode.left = node;
node.height = max(node.left,node.right) + 1;
newNode.height = max(newNode.left, newNode.right) + 1;
return newNode;
}
public Node AVLINSERT(int data, Node root){
if (root == null){
return new Node(data);
}
else if (data > root.data){
root.left = AVLINSERT(data, root.left);
}
else if (data < root.data){
root.right = AVLINSERT(data, root.right);
}
int balance = height(root.left) - height(root.right);
if (balance > 1){
if (height(root.left.left) > height(root.left.right)){
return rotateRight(root);
}
else {
root.left = rotateleft(root.left);
return rotateRight(root);
}
}
if (balance < -1){
if (height(root.right.right) > height(root.right.left)){
return rotateleft(root);
}
else
root.right = rotateRight(root);
return rotateleft(root);
}
root.height = 1 + max(root.left, root.right);
return root;
}
public void inorderPrinting(Node root){
inorderPrinting(root.left);
System.out.println(root.data);
inorderPrinting(root.right);
}
public void callingAVLInserting(int data){
AVLINSERT(data,root);
}
public void callinInorderPrinting(){
inorderPrinting(root);
}
}
Just by looking at your code, you have initialised the root to null however, you do not have any constructor that initializes it.
So try add something of the sort.
public class AVLTreeMethods {
public Node root = null;
//add the following
public AVLTreeMethods() {
//initialize your root appropriately e.g.
this.root = new Node(//pass in some data e.g 0)
}
...rest of your code
}
I'm making a Doubly Linked List that allows you to insert at the front and rear, as well as deleting any node from the list as long as it exists. The problem is that it doesn't work and gives off and either gives off a NullPointerException or it just says That Integer does not exist even though it does exist.The code is:
public class Numbers {
Node head = null; //Head of the list
Node tail = null; //end of the doubly list
int size = 0;
public void FrontInsert(int data) {
Node n = new Node();
if (head == null) {
head = n;
} else {
n.prev = head;
head.next = n;
head = n;
}
size++;
}
public void RearInsert(int data) {
Node n = new Node();
if (head == null) {
head = n;
tail = n;
} else {
n.next = tail;
tail.prev = n;
tail = n;
}
size++;
}
public void Delete(int x) {
if (size == 0) {
System.out.println("The list is empty.");
}
if (head.data == x) {
head = head.next;
if (head != null) {
head.prev = null;
}
size--;
return;
}
tmp = head;
while (tmp != null && tmp.data != x) {
tmp = tmp.next;
}
if (tmp == null) {
System.out.println("That integer does not exist.");
return;
}
if (tmp.data == x) {
tmp.prev.next = tmp.next;
if (tmp.next != null) {
tmp.next.prev = tmp.prev;
}
}
size--;
}
public void printList() {
while (head != null) {
System.out.print(head.data + " ");
head = head.prev;
}
}
public static void main(String[] args) {
Numbers nu = new Numbers();
}
class Node {
Node prev;
Node next;
int data;
public void Node(int data) {
this.data = data;
next = null;
prev = null;
}
}
}
Try this and check output
public class Numbers {
Node head = null;
Node tail = null;
int size = 0;
public void FrontInsert(int data) {
Node n = new Node(data);
if (head == null) { // first insert
head = n;
tail = n;
} else {
n.next = head;
head.prev = n;
head = n;
}
size++;
}
public void RearInsert(int data) {
Node n = new Node(data);
if (head == null) {
head = n;
tail = n;
} else {
n.prev = tail;
tail.next = n;
tail = n;
}
size++;
}
public void Delete(int index) { // index is the position to be remove
if (size == 0) {
System.out.println("The list is empty."); return;
}else if(index < 0 || index > size -1){
System.out.println("Index outOf Bound."); return;
}
Node currentNode = head;
for(int i = 1; i <= index ; i++){
currentNode = currentNode.next;
}
//remove
if (index == 0) {
currentNode.next.prev = null;
head = currentNode.next;
} else if (index == size - 1) {
currentNode.prev.next = null;
tail = currentNode.prev;
} else {
if (currentNode.prev != null) // Ensure its not header
currentNode.prev.next = currentNode.next;
if (currentNode.next != null) // Ensure its not tail
currentNode.next.prev = currentNode.prev;
}
size--;
}
public void printList() {
Node tmp = head;
while (tmp != null) {
System.out.print(tmp.data + " ");
tmp = tmp.next;
}
System.out.println();
}
public static void main(String[] args) {
Numbers nu = new Numbers();
nu.FrontInsert(1);nu.printList();
nu.FrontInsert(2);nu.printList();
nu.RearInsert(3);nu.printList();
nu.FrontInsert(4);nu.printList();
nu.RearInsert(3);nu.printList();
nu.FrontInsert(4);nu.printList();
nu.RearInsert(3);nu.printList();
nu.RearInsert(3);nu.printList();
nu.FrontInsert(4);nu.printList();
System.out.println();
nu.Delete(4);
nu.printList();
}
class Node {
Node prev;
Node next;
int data;
public Node(int data) {
this.data = data;
next = null;
prev = null;
}
}
}
Well, your head and tail were mutually exclusive, i mean when you add something to the tail of the list, you were only giving one side reference not both side, you have to says
tail.next = n; n.prev = tail; and tail = n.
Here is a working code:
public class Numbers {
Node head = null; //Head of the list
Node tail = null; //end of the doubly list
int size = 0;
public void FrontInsert(int data) {
Node n = new Node(data);
if (head == null) {
head = n;
tail = head;
} else {
n.next = head;
head.prev = n;
head = n;
}
size++;
}
public void RearInsert(int data) {
Node n = new Node(data);
if (head == null) {
head = n;
tail = head;
} else {
n.next = null;
tail.next = n;
n.prev = tail;
tail = n;
}
size++;
}
#SuppressWarnings("null")
public void Delete(int x) {
if (size == 0) {
System.out.println("The list is empty.");
return;
}
if (head.data == x) {
head = head.next;
if (head != null) {
head.prev = null;
}
size--;
return;
}
Node tmp = head;
while (true) {
if(tmp == null)
break;
if(tmp.data == x)
break;
System.out.println(tmp.data);
tmp = tmp.next;
}
if (tmp == null) {
System.out.println("That integer does not exist.");
return;
}
if (tmp.data == x) {
tmp.prev.next = tmp.next;
if (tmp.next != null) {
tmp.next.prev = tmp.prev;
}
}
size--;
}
public void printList() {
while (head != null) {
System.out.print(head.data + " ");
head = head.next;
}
}
public static void main(String[] args) {
Numbers nu = new Numbers();
nu.FrontInsert(2);
nu.FrontInsert(3);
nu.FrontInsert(6);
nu.RearInsert(8);
nu.RearInsert(20);
nu.Delete(8);
nu.printList();
// System.out.println(nu.head.data + "data");
// System.out.println(nu.head.next.data + "data");
}
class Node {
Node prev;
Node next;
private int data;
public Node(int data) {
this.data = data;
next = null;
prev = null;
}
}
}
I am supposed to return the oldest element in a priority min queue along with said element. I have to use nodes, arrays are optional. This is what I got so far but I have an null pointer error on line 20 and i don't know how to fix it. Please help
public class MinHeap {
public static int timeStamp = 0;
public static int ts = 0;
public static int maxTime = 0;
public static Node root;
public MinHeap(){
this.root = null;
}
public static void insert(int id, int ts){
timeStamp++;
Node newNode = new Node(id);
if(root==null){
root = newNode;
}
Node current = root;
Node parent = null;
while(true){
parent = current;
if(id < current.data){
current = current.left;
if(current==null){
parent.left = newNode;
}
}else{
current = current.right;
if(current==null){
parent.right = newNode;
}
}
}
}
public static Node delete(int x, Node n){
timeStamp++;
if(n==null)
return n;
if(x == n.data){
if(n.left == null && n.right == null){
return null;
}else if(n.left == null){
n.right = delete(x, n.right);
return n;
}else if(n.right == null){
n.left = delete(x, n.left);
return n;
}else{
Node tempNode = findMin(n.right);
n.right = delete(tempNode.data, n.right);
n.data = tempNode.data;
return n;
}
}
if(x < n.data){
n.left = delete(x, n.left);
return n;
}else{
n.right = delete(x, n.right);
return n;
}
}
public static void display(Node root){
if(root!=null){
display(root.left);
System.out.print(" " + root.data);
display(root.right);
}
}
public static Node findMin(Node n){
if(n == null){
return null;
}
if(n.left == null){
return n;
}
return findMin(n.left);
}
public static int maxAge(){
int currentAge = 0;
currentAge = timeStamp - ts;
if(currentAge > maxTime)
maxTime = currentAge;
return maxTime;
}
public static void main(String [] arg){
MinHeap min = new MinHeap();
min.insert(1, ts = 0);
min.insert(2, ts = 1);
min.insert(3, ts = 2);
min.insert(4, ts = 4);
min.delete(1, root);
min.delete(2, root);
min.delete(3, root);
min.delete(4, root);
min.maxAge();
}
}
class Node{
int data;
Node left;
Node right;
public Node(int data){
this.data = data;
left = null;
right = null;
}
}
Your insert is broken. You forgot to break after finding the insert point, and you're not checking for the case where the key is already in the tree.
while (true) {
parent = current;
if (id < current.data) {
current = current.left;
if (current == null) {
parent.left = newNode;
// Break after insert
break;
}
} else if (id > current.data) {
current = current.right;
if (current == null) {
parent.right = newNode;
// Break after insert
break;
}
} else {
// Key exists.
break;
}
}
My task is to implement a circular linked list in java (ascending order) but the problem is that it is going in an infinite loop
I have created a class of Node in which i have define two elements.
public class Node {
public int element;
public Node next;
public class Node {
int element;
Node next;
}
}
Now in the second class of List i have made a insert function i have define a Node head=null in the start and create a new nNode .After that i am checking in the head section if head==null then the first element will be nNode. After inserting the first element i will compare the next element and the head element if the head element is greater than it will shift next and the new nNode will be the head. Since it is the circular linked list it is working but it is also going in an infinite loop.
This is the List class in which i have use the node class variables
public class List {
void insert(int e) {
Node nNode = new Node();
Node tNode = head;
nNode.element = e;
if (head == null)
head = nNode;
else if (head.element > e) {
nNode.next = head;
head=nNode;
} else {
Node pNode = head;
while (tNode.next != head && tNode.element <= e) {
pNode = tNode;
tNode = tNode.next;
}
pNode.next = nNode;
nNode.next = tNode;
tNode.next=head;
}
}
}
I have created on sample program for circular linkedlist which hold name and age of given element.
It has add(), remove() and sorbasedOnAge() (Sorting is implemented by first getting clone and convert it into simple linked list. Then use merge sort so that performance of O(nLogn) could be achieved.)
If you like it don't forget to press like button.
package com.ash.practice.tricky;
import java.util.Collections;
import java.util.LinkedList;
public class CircularLinkedList implements Cloneable{
Node start;
public Node getHead() {
return start;
}
CircularLinkedList setHead(Node startNode) {
start = startNode;
return this;
}
public void add(String name, int age) {
if(name==null) {
System.out.println("name must not be null.");
return;
}
if(start == null) {
Node node = new Node(name,age);
start = node;
node.next = start;
} else {
Node node = new Node(name,age);
Node temp = start;
while(temp.next != start) {
temp = temp.next;
}
temp.next = node;
node.next = start;
}
}
public CircularLinkedList clone()throws CloneNotSupportedException{
return (CircularLinkedList)super.clone();
}
public boolean remove(String name) {
if(name==null) {
return false;
} else if(start==null) {
return false;
} else if(start.getName().equals(name)) {
if(size()>1) {
Node temp = start;
while(temp.next!=start) {
temp = temp.next;
}
temp.next = start.next;
start = start.next;
} else {
start = null;
}
return true;
} else {
Node temp = start;
Node next = null;
Node prev = null;
while(temp.next != start) {
String currName = temp.name;
if(currName.equals(name)) {
next = temp.next;
break;
} else {
temp = temp.next;
}
}
if(next == null) {
return false;
}
prev = temp.next;
while(prev.next!=temp) {
prev = prev.next;
}
prev.next = next;
temp = null;
return true;
}
}
/*
public Node getPrevious(String name, int age) {
Node curr = new Node(name,age);
Node temp = curr;
while(temp.next!=curr) {
temp = temp.next;
}
return temp;
}
*/
public int size() {
int count = 1;
if(start != null) {
Node temp = start;
while(temp.next!=start) {
count++;
temp = temp.next;
}
} else return 0;
return count;
}
public int listSize() {
int count = 1;
if(start != null) {
Node temp = start;
while(temp.next!=null) {
count++;
temp = temp.next;
}
} else return 0;
return count;
}
public void display() {
if(start == null) {
System.out.println("No element present in list.");
} else {
Node temp = start;
while(temp.next != start) {
System.out.println(temp);
temp = temp.next;
}
System.out.println(temp);
}
}
public void displayList() {
if(start == null) {
System.out.println("No element present in list.");
} else {
Node temp = start;
while(temp.next != null) {
System.out.println(temp);
temp = temp.next;
}
System.out.println(temp);
}
}
public Node getPrevious(Node curr) {
if(curr==null) {
return null;
} else {
Node temp = curr;
while(temp.next!=curr) {
temp = temp.next;
}
return temp;
}
}
Node getMiddle() {
Node result = null;
Node temp = start.next;
result = start.next;
Node end = getPrevious(start);
end.next = null;
while(temp.next!=null) {
if(temp.next.next!=null) {
temp = temp.next.next;
result = result.next;
} else {
return result;
}
}
return result;
}
private static CircularLinkedList SortCollections(CircularLinkedList list) {
return SortCollections.doSortBasedOnAge(list);
}
private static class Node {
Node next;
String name;
int age;
Node(String name,int age) {
this.name = name;
this.age = age;
}
String getName() {
return name;
}
int getAge() {
return age;
}
public String toString() {
return "name = "+name +" : age = "+age;
}
#Override
public int hashCode() {
final int prime = 31;
int result = 1;
result = prime * result + age;
result = prime * result + ((name == null) ? 0 : name.hashCode());
return result;
}
#Override
public boolean equals(Object obj) {
if (this == obj)
return true;
if (obj == null)
return false;
if (getClass() != obj.getClass())
return false;
Node other = (Node) obj;
if (age != other.age)
return false;
if (name == null) {
if (other.name != null)
return false;
} else if (!name.equals(other.name))
return false;
return true;
}
}
private static class SortCollections {
static Node mergeSort(Node head) {
if(head == null || head.next == null) {
return head;
}
Node middle = getMiddle(head);
Node nextHead = middle.next;
middle.next = null;
Node left = mergeSort(head);
Node right = mergeSort(nextHead);
Node sortedList = sortedMerged(left, right);
return sortedList;
}
public static CircularLinkedList doSortBasedOnAge(CircularLinkedList list) {
CircularLinkedList copy = null;
try {
copy = list.clone();
} catch (CloneNotSupportedException e) {
e.printStackTrace();
}
if(copy!=null) {
Node head = copy.getHead();
Node end = copy.getPrevious(head);
end.next = null;
Node startNode = mergeSort(head);
CircularLinkedList resultList = new CircularLinkedList().setHead(startNode);
return resultList;
} else {
System.out.println("copy is null");
}
return null;
}
private static Node sortedMerged(Node a, Node b) {
if(a == null) {
return b;
} else if(b == null) {
return a;
}
Node result = null;
if(a.getAge() > b.getAge()) {
result = b;
result.next = sortedMerged(a, b.next);
} else {
result = a;
result.next = sortedMerged(a.next, b);
}
return result;
}
private static Node getMiddle(Node head) {
Node result = null;
Node temp = head;
result = head;
while(temp.next!=null) {
if(temp.next.next!=null) {
temp = temp.next.next;
result = result.next;
} else {
return result;
}
}
return result;
}
}
public static void main(String[] args) {
CircularLinkedList list = new CircularLinkedList();
Collections.sort(new LinkedList());
list.add("ashish", 90);
list.add("rahul", 80);
list.add("deepak", 57);
list.add("ankit", 24);
list.add("raju", 45);
list.add("piyush", 78);
list.add("amit", 12);
//list.display();
/*System.out.println("---------------- size = "+list.size());
System.out.println(list.remove("deepak"));
//list.display();
System.out.println("---------------- size = "+list.size());
System.out.println(list.remove("ashish"));
//list.display();
System.out.println("---------------- size = "+list.size());
System.out.println(list.remove("raju"));
//list.display();
System.out.println("---------------- size = "+list.size());
list.add("aman", 23);
System.out.println("---------------- size = "+list.size());
list.display();
System.out.println("Previous Node of second node is : "+list.getPrevious(list.start.next));
System.out.println("Previous Node of start node is : "+list.getPrevious(list.start));
System.out.println("Previous Node of piyush node is : "+list.getPrevious("piyush",78));*/
list.display();
System.out.println("---------------- size = "+list.size());
//System.out.println(list.getMiddle());
CircularLinkedList newList = CircularLinkedList.SortCollections(list);
newList.displayList();
System.out.println("---------------- size = "+newList.listSize());
}
}
Let's consider the following situation:
The list contains elements B,C,X. Now you want to insert A and then Z.
void insert(int e) {
Node nNode = new Node(); //the new node, step 1: A, step2: Z
Node tNode = head; //step1: points to B, step2: points to A
nNode.element = e;
if (head == null) { //false in both steps
head = nNode;
head.next = head; //I added this line, otherwise you'd never get a circular list
} //don't forget the curly braces when adding more than one statement to a block
else if (head.element > e) { //true in step 1, false in step 2
nNode.next = head; //A.next = A
head=nNode; //A is the new head, but X.next will still be B
} else {
//you'll enter here when adding Z
Node pNode = head; //points to A because of step 1
//when tNode = X you'll start over at B, due to error in step 1
//the condition will never be false, since no node's next will point to A
//and no node's element is greater than Z
while (tNode.next != head && tNode.element <= e) {
pNode = tNode;
tNode = tNode.next;
}
//in contrast to my previous answer, where I had an error in my thought process,
//this is correct: the node is inserted between pNode and tNode
pNode.next = nNode;
nNode.next = tNode;
tNode.next=head; //delete this
}
}
As you can see, there are at least the following problems in your code:
tNode.next=head; is not necessary, since if you insert a node between pNode and tNode, tNode.next should not be affected (and if tNode is the last node, next should already point to the head, while in all other cases this assignment would be wrong).
In the two branches above, where you set head, you're not setting the next element of the last node to head. If you don't do this when adding the first node, that's not necessarily a problem, but leaving that out when adding a new head (second condition) you'll produce an incorrect state which then might result in endless loops
What you might want to do:
Remove the tNode.next=head; statement.
If you add a new head locate the last node and set the head as its next node. That means that if you have only one node, it references itself. If you add a node at the front (your second condition) you'll have to update the next reference of the last node, otherwise you'll get an endless loop if you try to add an element at the end.
After working two days on the code I finally solved it but this is not efficient code .
void insert(int e) {
Node nNode = new Node(); //the new node, step 1: A, step2: Z
Node tNode = head; //step1: points to B, step2: points to A
nNode.element = e;
if (head == null) { //false in both steps
head = nNode;
head.next = head;
}
else if (head.element > e) { //true in step 1, false in step 2
Node pNode = head;
pNode=tNode.next; //PNode is at head which will equal to tNode.next Which will be the next element
nNode.next = head;
head=nNode;
tNode.next.next=nNode; // Now I am moving the Tail Node next
} else {
Node pNode=head; //points to A because of step 1
while (tNode.next != head && tNode.element <= e) {
pNode = tNode;
tNode = tNode.next;
}
pNode.next = nNode;
nNode.next = tNode;
}
}